Global rack system
A rack system for electronic and/or electrical equipment including a frame, a front door mounted to the front of the frame, a back door or panel, two side panels mounted to the back and two sides of the frame, and a top panel mounted to the top of the frame. The doors can be single doors or dual doors. The frame includes a rectangular base frame constructed by four horizontal edge members, and a top frame having the same structure as the base frame, and four vertical members each extending between two associate corners of the base frame and the top frame, and joining the base frame and top frame together. The horizontal members and vertical members are contoured with step-like structures, so that the rack has a high stiffness and strength. The door includes a hinge and a latch attached to two vertical members. The panels are provided with tabs and latches for securing the panels to the frame.
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This application is a continuation of U.S. application Ser. No. 11/289,879, filed Nov. 30, 2005 which claims priority to PCT international application PCT/US2004/017351, filed Jun. 1, 2004, which claims priority to U.S. Provisional Application Ser. No. 60/474,561 filed May 20, 2003. The entire contents of each of the above mentioned applications is incorporated herein by reference.
FIELD OF THE INVENTIONThe present invention relates to racks for electronic and/or electrical equipment and, more particularly, to racks having high stiffness and strength.
BACKGROUND OF THE INVENTIONA common use of equipment racks of the type to which the present invention relates is for containing electronic or electrical equipment in the racks. In general, the rack has a box-like shape, including a base, side members extending upwardly from the base, and a top mounted to the top ends of the side members. The base, top, and side members form an enclosure within which the electronic or electrical equipment is disposed.
Preservation of electronic or electrical equipment from damage of crushing or other burden, for example, rubbles of earthquakes and aftershocks, for the maintenance of communications and other purposes is a major concern. It is possible to make an equipment rack that is strong enough to avoid these damages by using heavier material and more bracing members, but this adds significantly to the cost. Heavier material and more bracing, therefore, are not a solution acceptable in the competitive environment of modem rack systems. In addition, it has been found that lighter weight, yet more rigid equipment racks behave more favorably during shaking of the type that the rack system may encounter during earthquakes or other situations.
What is desired is a new and improved electronic and/or electrical equipment rack system having high stiffness and strength with low cost. Preferably, the improved rack will include increased structural rigidity without a substantial increase in weight.
SUMMARY OF THE INVENTIONThe present invention provides a rack system for containing electronic and/or electrical equipment. The rack system preferably includes a frame having a box-like structure, a front door mounted to the front of the frame, a back door or panel mounted to the back of the frame, two side panels mounted to two sides of the frame, and a roof panel mounted to the top of the frame.
The frame of the rack generally includes a rectangular base frame constructed by four horizontal edge members, a top frame having the same structure as the base frame, and four vertical members each extending between two associated corners of the base frame and the top frame, and joining the base frame and top frame together. The horizontal members and vertical members are preferably joined by welding, or by other means, for example bolts, or by combinations of these means. The doors can be single doors or dual doors.
In a preferred embodiment, the vertical member is preferably fabricated from a sheet of a metal or other materials, and includes a step-like cross-section. The vertical member preferably includes a first section, a second step-like section, and a third section. The first section and the third section are angularly joined to two ends of the second step-like section, preferably forming an angle of 90 degrees. The second step-like section defines a two-step-like interior side.
The horizontal member is preferably constructed by rolling a sheet of a metal or other materials and joining the two end edges of the sheet of metal or other materials. The two end edges are preferably curved into the interior of the roll and form two back-to-back attached “L”. The two end edges are preferably joined by welding or other means. The horizontal member preferably includes a relatively large first section, and a relatively small second section positioned opposing to each other, and two step-like sections connected to two ends of the first section and the second section.
At the corners of the frame where the horizontal members and the vertical members are joined, the first section and third section of the vertical member are cut to a shorter length so that the first section and the third section can be positioned underneath and welded to a portion of the bottom surfaces of the horizontal members at the top corners, and support the top frame. The ends of the horizontal members are contoured to fit to and welded to the step-like interior side of the vertical member.
The frame may include at least a pair of struts each extending between two vertical members which are disposed within one surface plane of the rack. The struts enhance the strength of the frame.
In one preferred embodiment, the rack includes a door mounted to the front of the frame. The door includes at least one hinge attached to the left vertical member of the front side of the frame, and at least one latch attached to the right vertical member of the front side of the frame. The latch is for locking the door to the frame. The position of the hinge and latch can be reversed, so that the door can open in an opposite direction. The door also can be mounted on the back or the two sides of the frame, and the rack may include more than one doors so that a user can access the inside of the rack from different sides of the rack.
In another preferred embodiment, the rack further includes four casters mounted on four corners of the base frame to support the rack and facilitate movement of the rack. The rack may further include locating plates attached to the horizontal members at places where the casters are mounted to the base frame for stiffening the base frame. In one preferred embodiment, the base frame further includes four corner brackets which are coupled to the four inner corners of the base frame. The corner brackets enhance the strength of the base frame.
The side panel or back panel of the rack preferably includes a plurality of tabs extending from the top edge of the panel. The tabs are sized to insert into a plurality of slots defined by the horizontal member of the top frame. The panel may further be provided with two latch assemblies, preferably having a simple spring slam latch with a rotary key lock positioned behind it, for locking the panel to the frame. The cam of the lock, when in a locked position, prevents the slam latch from opening. The slam latch can use a conventional latch, for example, slide latch Part Number A3-40-525-12 of SOUTHCO™. In alternate embodiments, the panel may include tabs extending from the side edges or bottom edge, and the horizontal members or vertical members of the frame define associate slots for receiving the tabs.
The roof panel may also includes tabs extending outwardly from one edge of the roof panel and are adapted to insert into the slots defined by the horizontal members of the top frame. The roof panel may further include a latch disposed close to an edge opposite to the edge
where the tabs extend. The tabs and the latch allow the roof panel to be secured to and removed from the top frame without using any tools.
The present invention provides a new and improved electronic equipment rack system including features that provide the rack with exceptional strength and rigidity without substantially increasing the weight and cost of the rack. The rack system, in accordance with one preferred embodiment, generally includes a box-like frame, a door mounted to the front of the frame, a back door or panel and two side panels mounted to the back and two sides of the frame, and a roof panel mounted to the top of the frame.
Referring to
The frame 10 may include one pair or more struts 20 each extending between two vertical members 18 which are disposed within the same surface plane of the rack. As shown in
An alternative form of vertical member 18 is shown in
The horizontal member 16 includes a relatively large first section 40, a relatively small second section 42, and two step-like side sections 44A and 44B. In the frame 10, the first section 40 of the horizontal member 16 faces inward, and the second section 42 of the horizontal member 16 faces outward (as best shown in
The invention may be embodied on other specific form without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered illustrative and not restrictive, the scope of the invention being dictated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.
Claims
1. A rack system for containing electronic and/or electrical equipment, comprising:
- a. a rectangular base frame having four horizontal support members each extending along a longitudinal axis;
- b. a rectangular top frame having four horizontal support members each extending along a longitudinal axis;
- wherein each horizontal support member of said baśe frame and said top frame is made from an elongated sheet material extending along a longitudinal axis by bending the sheet material about an axis parallel to said longitudinal axis to form two step-like side peripheral surfaces, attaching two side elongated edges of said elongated sheet material together;
- c. four elongated vertical support members each extending along a longitudinal axis between and joined to two associated corners of said rectangular base frame and said rectangular top frame, wherein each said elongated vertical support member is made from an elongated sheet material extending along a longitudinal axis by bending said sheet material about an axis parallel to said longitudinal axis of said sheet material to form at least three elongated sections wherein adjacent sections are substantially perpendicular to each other;
- d. eight corner brackets each affixed to a respective inner corner of the rectangular base frame or a respective inner corner of the rectangular top frame; and
- e. four u-shaped channel members, each affixed to a respective one of the vertical support members or a respective one of the corner brackets; and
- further comprising panels mounted to surface planes of the rack system; and
- wherein said panels include a top panel attached to said top frame, wherein said top panel includes tabs extending outwardly from a first edge of said top panel, and said horizontal support member which is associated with said first edge defines slots facing and for receiving said tabs, wherein a second edge of said top panel opposite to said first edge includes a latch for locking said second edge to an associated said horizontal member.
2. A rack system for containing electronic and/or electrical equipment according to claim 1, wherein each panel is made from a unitary sheet of metal.
3. A rack system for containing electronic and/or electrical equipment according to claim 1, wherein said panels include a front panel, wherein a first side edge of said front panel is attached to an associated said vertical support member of said rack system by at least one hinge, such that said front panel is rotatable about said vertical support member, wherein said front panel forms an openable door.
4. A rack system for containing electronic and/or electrical equipment according to claim 3, wherein said hinge is mounted on the outside of the vertical support member of the rack system.
5. A rack system for containing electronic and/or electrical equipment according to claim 3, wherein said front panel include a latch attached to a second side edge opposite to said first side edge where the hinge is attached, wherein said latch is adapted to lock said second side edge to an associated said vertical support member.
6. A rack system for containing electronic and/or electrical equipment according to claim 5, wherein said latch is a slam latch.
7. A rack system for containing electronic and/or electrical equipment according to claim 3, wherein said front panel comprises two panels, each having a side edge mounted on an associated said vertical support member by at least one hinge, whereby said two panels form a dual-door.
8. A rack system for containing electronic and/or electrical equipment according to claim 1, wherein said panels include a back panel, wherein a first side edge of said back panel is attached to an associated said vertical support member of said rack system by at least one hinge, such that said back panel is rotatable about said vertical support member, wherein said back panel forms an (Tenable door.
9. A rack system for containing electronic and/or electrical equipment according to claim 8, wherein said back panel include a latch attached to a second side edge opposite to said first side edge where the hinge is attached, wherein said latch is adapted to lock said second side edge to an associated vertical support member.
10. A rack system for containing electronic and/or electrical equipment according to claim 1, wherein said panels include tabs extending outwardly from the edges of said panels, and wherein said vertical or horizontal support members define slots facing the tabs for receiving said tabs of said panels.
11. A rack system for containing electronic and/or electrical equipment according to claim 10, wherein said panels are removable from said rack system.
12. A rack system for containing electronic and/or electrical equipment according to claim 1 wherein said top panel define at least one hole passing through said top panel.
13. A rack system for containing electronic and/or electrical equipment according to claim 1, wherein said panels include a bottom panel mounted to the base frame, wherein said bottom panel defines at least one hole passing through said bottom panel.
14. A rack system for containing electronic and/or electrical equipment according to claim 1, wherein the base frame comprises four casters mounted on four corners of the base frame.
15. A rack system for containing electronic and/or electrical equipment according to claim 1 further comprising at least one strut extending between two associated said vertical support members.
16. A rack system for containing electronic and/or electrical equipment according to claim 1, herein each said horizontal support member extends between two opposite ends, wherein each end is partially cut away to fit the contour of said vertical support member.
3404931 | October 1968 | Fall et al. |
4782637 | November 8, 1988 | Eriksson et al. |
5001602 | March 19, 1991 | Suffi et al. |
5020866 | June 4, 1991 | McIlwraith |
5165770 | November 24, 1992 | Hahn |
5333950 | August 2, 1994 | Zachrai |
5806945 | September 15, 1998 | Anderson et al. |
5806946 | September 15, 1998 | Benner et al. |
5938302 | August 17, 1999 | Anderson et al. |
5975659 | November 2, 1999 | Yang et al. |
5992646 | November 30, 1999 | Benner et al. |
6030063 | February 29, 2000 | Benner |
6174034 | January 16, 2001 | Benner et al. |
6213577 | April 10, 2001 | Rooyakkers et al. |
6215654 | April 10, 2001 | Wilkie et al. |
6217138 | April 17, 2001 | Benner et al. |
6231142 | May 15, 2001 | Pochet |
6238027 | May 29, 2001 | Kohler et al. |
6425648 | July 30, 2002 | Notohardjono et al. |
6428127 | August 6, 2002 | Rasmussen |
6814417 | November 9, 2004 | Hartel |
7478890 | January 20, 2009 | Hudz et al. |
20010050516 | December 13, 2001 | Minoura et al. |
20020017839 | February 14, 2002 | Wei |
20020172013 | November 21, 2002 | Chandler |
20030034717 | February 20, 2003 | Yao |
20040075371 | April 22, 2004 | Latchinian |
20040201335 | October 14, 2004 | Davis |
20050174020 | August 11, 2005 | Francisquini |
4140072 | June 1993 | DE |
29623551 | October 1998 | DE |
- PCT International Search Report (PCT/US04/17351) Date of Mailing Sep. 7, 2005; 1 page.
- PCT International Search Report (PCT/US06/44879) Date of Mailing Oct. 1, 2007; 1 page.
- Supplementary European Search Report, European Application No. 04754052, Oct. 21, 2009 (2 pages).
Type: Grant
Filed: Jan 16, 2009
Date of Patent: Dec 27, 2011
Patent Publication Number: 20090236957
Assignee: Sanmina-Sci Corporation (San Jose, CA)
Inventors: Andrew Hudz (Etobicoke), Peter Jeffery (West Hill), Zia Shariff (Toronto), Eino A. Aapro (Cobourg)
Primary Examiner: Janet M Wilkens
Attorney: Foley & Lardner LLP
Application Number: 12/355,493
International Classification: A47B 47/00 (20060101);